/*=====================================================================
======================================================================*/
/**
* @file
* @brief Cross-platform support for serial ports
*
* @author Lorenz Meier <mavteam@student.ethz.ch>
*
*/
#include <QTimer>
#include <QDebug>
#include <QSettings>
#include <QMutexLocker>
#include <qserialport.h>
#include <qserialportinfo.h>
#include "SerialLink.h"
#include "LinkManager.h"
#include "QGC.h"
#include <MG.h>
SerialLink::SerialLink(QString portname, int baudRate, bool hardwareFlowControl, bool parity,
int dataBits, int stopBits) :
m_bytesRead(0),
m_port(NULL),
type(""),
m_is_cdc(true),
m_stopp(false),
m_reqReset(false)
{
// We're doing it wrong - because the Qt folks got the API wrong:
// http://blog.qt.digia.com/blog/2010/06/17/youre-doing-it-wrong/
moveToThread(this);
// Get the name of the current port in use.
m_portName = portname.trimmed();
if (m_portName == "" && getCurrentPorts().size() > 0)
{
m_portName = m_ports.first().trimmed();
}
checkIfCDC();
// Set unique ID and add link to the list of links
m_id = getNextLinkId();
m_baud = baudRate;
if (hardwareFlowControl)
{
m_flowControl = QSerialPort::HardwareControl;
}
else
{
m_flowControl = QSerialPort::NoFlowControl;
}
if (parity)
{
m_parity = QSerialPort::EvenParity;
}
else
{
m_parity = QSerialPort::NoParity;
}
m_dataBits = dataBits;
m_stopBits = stopBits;
loadSettings();
qDebug() << "create SerialLink " << portname << baudRate << hardwareFlowControl
<< parity << dataBits << stopBits;
qDebug() << "m_portName " << m_portName;
LinkManager::instance()->add(this);
}
void SerialLink::requestReset()
{
QMutexLocker locker(&this->m_stoppMutex);
m_reqReset = true;
}
SerialLink::~SerialLink()
{
disconnect();
if(m_port) delete m_port;
m_port = NULL;
}
QList<QString> SerialLink::getCurrentPorts()
{
m_ports.clear();
QList<QSerialPortInfo> portList = QSerialPortInfo::availablePorts();
if( portList.count() == 0){
qDebug() << "No Ports Found" << m_ports;
}
foreach (const QSerialPortInfo &info, portList)
{
// qDebug() << "PortName : " << info.portName()
// << "Description : " << info.description();
// qDebug() << "Manufacturer: " << info.manufacturer();
m_ports.append(info.portName());
}
return m_ports;
}
void SerialLink::loadSettings()
{
// Load defaults from settings
QSettings settings(QGC::ORG_NAME, QGC::APPNAME);
settings.sync();
if (settings.contains("SERIALLINK_COMM_PORT"))
{
m_portName = settings.value("SERIALLINK_COMM_PORT").toString();
checkIfCDC();
m_baud = settings.value("SERIALLINK_COMM_BAUD").toInt();
m_parity = settings.value("SERIALLINK_COMM_PARITY").toInt();
m_stopBits = settings.value("SERIALLINK_COMM_STOPBITS").toInt();
m_dataBits = settings.value("SERIALLINK_COMM_DATABITS").toInt();
m_flowControl = settings.value("SERIALLINK_COMM_FLOW_CONTROL").toInt();
}
}
void SerialLink::writeSettings()
{
// Store settings
QSettings settings(QGC::ORG_NAME, QGC::APPNAME);
settings.setValue("SERIALLINK_COMM_PORT", getPortName());
settings.setValue("SERIALLINK_COMM_BAUD", getBaudRateType());
settings.setValue("SERIALLINK_COMM_PARITY", getParityType());
settings.setValue("SERIALLINK_COMM_STOPBITS", getStopBits());
settings.setValue("SERIALLINK_COMM_DATABITS", getDataBits());
settings.setValue("SERIALLINK_COMM_FLOW_CONTROL", getFlowType());
settings.sync();
}
void SerialLink::checkIfCDC()
{
QString description = "X";
foreach (QSerialPortInfo info,QSerialPortInfo::availablePorts())
{
if (m_portName == info.portName())
{
description = info.description();
break;
}
}
if (description.toLower().contains("mega") && description.contains("2560"))
{
type = "apm";
m_is_cdc = false;
qDebug() << "Attempting connection to an APM, with description:" << description;
}
else if (description.toLower().contains("px4"))
{
type = "px4";
m_is_cdc = true;
qDebug() << "Attempting connection to a PX4 unit with description:" << description;
}
else
{
type = "other";
m_is_cdc = false;
qDebug() << "Attempting connection to something unknown with description:" << description;
}
}
/**
* @brief Runs the thread
*
**/
void SerialLink::run()
{
checkIfCDC();
// Initialize the connection
if (!hardwareConnect(type)) {
//Need to error out here.
QString err("Could not create port.");
if (m_port) {
err = m_port->errorString();
}
emit communicationError(getName(),"Error connecting: " + err);
// disconnect(); // This tidies up and sends the necessary signals
return;
}
// Qt way to make clear what a while(1) loop does
qint64 msecs = QDateTime::currentMSecsSinceEpoch();
qint64 initialmsecs = QDateTime::currentMSecsSinceEpoch();
quint64 bytes = 0;
// bool triedreset = false;
// bool triedDTR = false;
qint64 timeout = 5000;
int linkErrorCount = 0;
forever {
{
QMutexLocker locker(&this->m_stoppMutex);
if(m_stopp) {
m_stopp = false;
break; // exit the thread
}
if (m_reqReset) {
m_reqReset = false;
emit communicationUpdate(getName(),"Reset requested via DTR signal");
m_port->setDataTerminalReady(true);
msleep(250);
m_port->setDataTerminalReady(false);
}
}
// If there are too many errors on this link, disconnect.
if (isConnected() && (linkErrorCount > 1000)) {
qDebug() << "linkErrorCount too high: disconnecting!";
linkErrorCount = 0;
emit communicationUpdate(getName(), tr("Disconnecting on too many link errors"));
disconnect();
}
// Write all our buffered data out the serial port.
if (m_transmitBuffer.count() > 0) {
m_writeMutex.lock();
int numWritten = m_port->write(m_transmitBuffer);
bool txSuccess = m_port->waitForBytesWritten(5);
if (!txSuccess || (numWritten != m_transmitBuffer.count())) {
linkErrorCount++;
qDebug() << "TX Error! wrote" << numWritten << ", asked for " << m_transmitBuffer.count() << "bytes";
}
else {
// Since we were successful, reset out error counter.
linkErrorCount = 0;
}
// Now that we transmit all of the data in the transmit buffer, flush it.
m_transmitBuffer = m_transmitBuffer.remove(0, numWritten);
m_writeMutex.unlock();
// Log this written data for this timestep. If this value ends up being 0 due to
// write() failing, that's what we want as well.
QMutexLocker dataRateLocker(&dataRateMutex);
logDataRateToBuffer(outDataWriteAmounts, outDataWriteTimes, &outDataIndex, numWritten, QDateTime::currentMSecsSinceEpoch());
}
//wait n msecs for data to be ready
//[TODO][BB] lower to SerialLink::poll_interval?
m_dataMutex.lock();
bool success = m_port->waitForReadyRead(10);
if (success) {
QByteArray readData = m_port->readAll();
while (m_port->waitForReadyRead(10))
readData += m_port->readAll();
m_dataMutex.unlock();
if (readData.length() > 0) {
emit bytesReceived(this, readData);
// Log this data reception for this timestep
QMutexLocker dataRateLocker(&dataRateMutex);
logDataRateToBuffer(inDataWriteAmounts, inDataWriteTimes, &inDataIndex, readData.length(), QDateTime::currentMSecsSinceEpoch());
// Track the total amount of data read.
m_bytesRead += readData.length();
linkErrorCount = 0;
}
}
else {
m_dataMutex.unlock();
linkErrorCount++;
}
if (bytes != m_bytesRead) { // i.e things are good and data is being read.
bytes = m_bytesRead;
msecs = QDateTime::currentMSecsSinceEpoch();
}
else {
if (QDateTime::currentMSecsSinceEpoch() - msecs > timeout) {
//It's been 10 seconds since the last data came in. Reset and try again
msecs = QDateTime::currentMSecsSinceEpoch();
if (msecs - initialmsecs > 25000) {
//After initial 25 seconds, timeouts are increased to 30 seconds.
//This prevents temporary silences from things like calibration commands
//from screwing things up. In all reality, timeouts should be enabled/disabled
//for events like that on a case by case basis.
//TODO ^^
timeout = 30000;
}
// if (!triedDTR && triedreset) {
// triedDTR = true;
// emit communicationUpdate(getName(),"No data to receive on COM port. Attempting to reset via DTR signal");
// qDebug() << "No data!!! Attempting reset via DTR.";
// m_port->setDataTerminalReady(true);
// msleep(250);
// m_port->setDataTerminalReady(false);
// }
// else if (!triedreset) {
// qDebug() << "No data!!! Attempting reset via reboot command.";
// emit communicationUpdate(getName(),"No data to receive on COM port. Assuming possible terminal mode, attempting to reset via \"reboot\" command");
// m_port->write("reboot\r\n",8);
// triedreset = true;
// }
// else {
// emit communicationUpdate(getName(),"No data to receive on COM port....");
// qDebug() << "No data!!!";
// }
}
}
MG::SLEEP::msleep(SerialLink::poll_interval);
} // end of forever
if (m_port) { // [TODO][BB] Not sure we need to close the port here
qDebug() << "Closing Port #"<< __LINE__ << m_port->portName();
m_port->close();
delete m_port;
m_port = NULL;
emit disconnected();
emit connected(false);
}
}
void SerialLink::writeBytes(const char* data, qint64 size)
{
if(m_port && m_port->isOpen()) {
QByteArray byteArray(data, size);
m_writeMutex.lock();
m_transmitBuffer.append(byteArray);
m_writeMutex.unlock();
} else {
disconnect();
// Error occured
emit communicationError(getName(), tr("Could not send data - link %1 is disconnected!").arg(getName()));
}
}
/**
* @brief Read a number of bytes from the interface.
*
* @param data Pointer to the data byte array to write the bytes to
* @param maxLength The maximum number of bytes to write
**/
void SerialLink::readBytes()
{
if(m_port && m_port->isOpen()) {
const qint64 maxLength = 2048;
char data[maxLength];
m_dataMutex.lock();
qint64 numBytes = m_port->bytesAvailable();
if(numBytes > 0) {
/* Read as much data in buffer as possible without overflow */
if(maxLength < numBytes) numBytes = maxLength;
m_port->read(data, numBytes);
QByteArray b(data, numBytes);
emit bytesReceived(this, b);
}
m_dataMutex.unlock();
}
}
/**
* @brief Get the number of bytes to read.
*
* @return The number of bytes to read
**/
qint64 SerialLink::bytesAvailable()
{
if (m_port) {
return m_port->bytesAvailable();
} else {
return 0;
}
}
/**
* @brief Disconnect the connection.
*
* @return True if connection has been disconnected, false if connection couldn't be disconnected.
**/
bool SerialLink::disconnect()
{
qDebug() << "disconnect";
if (m_port)
qDebug() << m_port->portName();
if (isRunning())
{
{
QMutexLocker locker(&m_stoppMutex);
m_stopp = true;
}
wait(); // This will terminate the thread and close the serial port
emit disconnected(); // [TODO] There are signals from QSerialPort we should use
emit connected(false);
return true;
}
m_transmitBuffer.clear(); //clear the output buffer to avoid sending garbage at next connect
qDebug() << "already disconnected";
return true;
}
/**
* @brief Connect the connection.
*
* @return True if connection has been established, false if connection couldn't be established.
**/
bool SerialLink::connect()
{
if (isRunning())
disconnect();
{
QMutexLocker locker(&this->m_stoppMutex);
m_stopp = false;
}
start(HighPriority);
return true;
}
/**
* @brief This function is called indirectly by the connect() call.
*
* The connect() function starts the thread and indirectly calls this method.
*
* @return True if the connection could be established, false otherwise
* @see connect() For the right function to establish the connection.
**/
bool SerialLink::hardwareConnect(QString &type)
{
if (m_port) {
qDebug() << "SerialLink:" << QString::number((long)this, 16) << "closing port";
m_port->close();
QGC::SLEEP::usleep(50000);
delete m_port;
m_port = NULL;
}
qDebug() << "SerialLink: hardwareConnect to " << m_portName;
m_port = new QSerialPort(m_portName);
if (!m_port) {
emit communicationUpdate(getName(),"Error opening port: " + m_portName);
return false; // couldn't create serial port.
}
QObject::connect(m_port,SIGNAL(aboutToClose()),this,SIGNAL(disconnected()));
QObject::connect(m_port, SIGNAL(error(QSerialPort::SerialPortError)), this, SLOT(linkError(QSerialPort::SerialPortError)));
checkIfCDC();
// port->setCommTimeouts(QSerialPort::CtScheme_NonBlockingRead);
if (!m_port->open(QIODevice::ReadWrite)) {
emit communicationUpdate(getName(),"Error opening port: " + m_port->errorString());
m_port->close();
return false; // couldn't open serial port
}
// Need to configure the port
// NOTE: THE PORT NEEDS TO BE OPEN!
if (!m_is_cdc) {
qDebug() << "Configuring port";
m_port->setBaudRate(m_baud);
m_port->setDataBits(static_cast<QSerialPort::DataBits>(m_dataBits));
m_port->setFlowControl(static_cast<QSerialPort::FlowControl>(m_flowControl));
m_port->setStopBits(static_cast<QSerialPort::StopBits>(m_stopBits));
m_port->setParity(static_cast<QSerialPort::Parity>(m_parity));
}
emit communicationUpdate(getName(),"Opened port!");
emit connected();
emit connected(true);
qDebug() << "CONNECTING LINK: " << __FILE__ << __LINE__ << "type:" << type << "with settings" << m_port->portName()
<< getBaudRate() << getDataBits() << getParityType() << getStopBits();
writeSettings();
return true; // successful connection
}
void SerialLink::linkError(QSerialPort::SerialPortError error)
{
if (error != QSerialPort::NoError) {
// You can use the following qDebug output as needed during development. Make sure to comment it back out
// when you are done. The reason for this is that this signal is very noisy. For example if you try to
// connect to a PixHawk before it is ready to accept the connection it will output a continuous stream
// of errors until the Pixhawk responds.
//qDebug() << "SerialLink::linkError" << error;
}
}
/**
* @brief Check if connection is active.
*
* @return True if link is connected, false otherwise.
**/
bool SerialLink::isConnected() const
{
if (m_port) {
bool isConnected = m_port->isOpen();
// qDebug() << "SerialLink #" << __LINE__ << ":"<< m_port->portName()
// << " isConnected =" << QString::number(isConnected);
return isConnected;
} else {
// qDebug() << "SerialLink #" << __LINE__ << ":" << m_portName
// << " isConnected = NULL";
return false;
}
}
int SerialLink::getId() const
{
return m_id;
}
QString SerialLink::getName() const
{
return m_portName;
}
/**
* This function maps baud rate constants to numerical equivalents.
* It relies on the mapping given in qportsettings.h from the QSerialPort library.
*/
qint64 SerialLink::getConnectionSpeed() const
{
int baudRate;
if (m_port && !m_is_cdc) {
baudRate = m_port->baudRate();
} else {
baudRate = m_baud;
}
qint64 dataRate;
switch (baudRate)
{
case QSerialPort::Baud1200:
dataRate = 1200;
break;
case QSerialPort::Baud2400:
dataRate = 2400;
break;
case QSerialPort::Baud4800:
dataRate = 4800;
break;
case QSerialPort::Baud9600:
dataRate = 9600;
break;
case QSerialPort::Baud19200:
dataRate = 19200;
break;
case QSerialPort::Baud38400:
dataRate = 38400;
break;
case QSerialPort::Baud57600:
dataRate = 57600;
break;
case QSerialPort::Baud115200:
dataRate = 115200;
break;
// Otherwise do nothing.
case QSerialPort::UnknownBaud:
default:
dataRate = -1;
break;
}
return dataRate;
}
QString SerialLink::getPortName() const
{
return m_portName;
}
// We should replace the accessors below with one to get the QSerialPort
int SerialLink::getBaudRate() const
{
return getConnectionSpeed();
}
int SerialLink::getBaudRateType() const
{
int baudRate;
if (m_port && !m_is_cdc) {
baudRate = m_port->baudRate();
} else {
baudRate = m_baud;
}
return baudRate;
}
int SerialLink::getFlowType() const
{
int flowControl;
if (m_port && !m_is_cdc) {
flowControl = m_port->flowControl();
} else {
flowControl = m_flowControl;
}
return flowControl;
}
int SerialLink::getParityType() const
{
int parity;
if (m_port && !m_is_cdc) {
parity = m_port->parity();
} else {
parity = m_parity;
}
return parity;
}
int SerialLink::getDataBitsType() const
{
int dataBits;
if (m_port && !m_is_cdc) {
dataBits = m_port->dataBits();
} else {
dataBits = m_dataBits;
}
return dataBits;
}
int SerialLink::getStopBitsType() const
{
int stopBits;
if (m_port && !m_is_cdc) {
stopBits = m_port->stopBits();
} else {
stopBits = m_stopBits;
}
return stopBits;
}
int SerialLink::getDataBits() const
{
int ret;
int dataBits;
if (m_port && !m_is_cdc) {
dataBits = m_port->dataBits();
} else {
dataBits = m_dataBits;
}
switch (dataBits) {
case QSerialPort::Data5:
ret = 5;
break;
case QSerialPort::Data6:
ret = 6;
break;
case QSerialPort::Data7:
ret = 7;
break;
case QSerialPort::Data8:
ret = 8;
break;
default:
ret = -1;
break;
}
return ret;
}
int SerialLink::getStopBits() const
{
int stopBits;
if (m_port && !m_is_cdc) {
stopBits = m_port->stopBits();
} else {
stopBits = m_stopBits;
}
int ret = -1;
switch (stopBits) {
case QSerialPort::OneStop:
ret = 1;
break;
case QSerialPort::TwoStop:
ret = 2;
break;
default:
ret = -1;
break;
}
return ret;
}
bool SerialLink::setPortName(QString portName)
{
qDebug() << "current portName " << m_portName;
qDebug() << "setPortName to " << portName;
bool accepted = true;
if ((portName != m_portName)
&& (portName.trimmed().length() > 0)) {
m_portName = portName.trimmed();
checkIfCDC();
if(m_port)
m_port->setPortName(portName);
emit nameChanged(m_portName); // [TODO] maybe we can eliminate this
emit updateLink(this);
return accepted;
}
return false;
}
bool SerialLink::setBaudRateType(int rateIndex)
{
// These minimum and maximum baud rates were based on those enumerated in qserialport.h
bool result;
const int minBaud = (int)QSerialPort::Baud1200;
const int maxBaud = (int)QSerialPort::Baud115200;
if ((rateIndex >= minBaud && rateIndex <= maxBaud))
{
if (!m_is_cdc && m_port)
{
result = m_port->setBaudRate(static_cast<QSerialPort::BaudRate>(rateIndex));
emit updateLink(this);
} else {
m_baud = (int)rateIndex;
result = true;
}
} else {
result = false;
}
return result;
}
bool SerialLink::setBaudRateString(const QString& rate)
{
bool ok;
int intrate = rate.toInt(&ok);
if (!ok) return false;
return setBaudRate(intrate);
}
bool SerialLink::setBaudRate(int rate)
{
bool accepted = false;
if (rate != m_baud) {
m_baud = rate;
accepted = true;
if (m_port && !m_is_cdc) {
accepted = m_port->setBaudRate(rate);
}
emit updateLink(this);
}
return accepted;
}
bool SerialLink::setFlowType(int flow)
{
bool accepted = false;
if (flow != m_flowControl) {
m_flowControl = static_cast<QSerialPort::FlowControl>(flow);
accepted = true;
if (m_port && !m_is_cdc)
accepted = m_port->setFlowControl(static_cast<QSerialPort::FlowControl>(flow));
emit updateLink(this);
}
return accepted;
}
bool SerialLink::setParityType(int parity)
{
bool accepted = false;
if (parity != m_parity) {
m_parity = static_cast<QSerialPort::Parity>(parity);
accepted = true;
if (m_port && !m_is_cdc) {
switch (parity) {
case QSerialPort::NoParity:
accepted = m_port->setParity(QSerialPort::NoParity);
break;
case 1: // Odd Parity setting for backwards compatibilty
accepted = m_port->setParity(QSerialPort::OddParity);
break;
case QSerialPort::EvenParity:
accepted = m_port->setParity(QSerialPort::EvenParity);
break;
case QSerialPort::OddParity:
accepted = m_port->setParity(QSerialPort::OddParity);
break;
default:
// If none of the above cases matches, there must be an error
accepted = false;
break;
}
emit updateLink(this);
}
}
return accepted;
}
bool SerialLink::setDataBits(int dataBits)
{
qDebug("SET DATA BITS");
bool accepted = false;
if (dataBits != m_dataBits) {
m_dataBits = static_cast<QSerialPort::DataBits>(dataBits);
accepted = true;
if (m_port && !m_is_cdc)
accepted = m_port->setDataBits(static_cast<QSerialPort::DataBits>(dataBits));
emit updateLink(this);
}
return accepted;
}
bool SerialLink::setStopBits(int stopBits)
{
// Note 3 is OneAndAHalf stopbits.
bool accepted = false;
if (stopBits != m_stopBits) {
m_stopBits = static_cast<QSerialPort::StopBits>(stopBits);
accepted = true;
if (m_port && !m_is_cdc)
accepted = m_port->setStopBits(static_cast<QSerialPort::StopBits>(stopBits));
emit updateLink(this);
}
return accepted;
}
bool SerialLink::setDataBitsType(int dataBits)
{
bool accepted = false;
if (dataBits != m_dataBits) {
m_dataBits = static_cast<QSerialPort::DataBits>(dataBits);
accepted = true;
if (m_port && !m_is_cdc)
accepted = m_port->setDataBits(static_cast<QSerialPort::DataBits>(dataBits));
emit updateLink(this);
}
return accepted;
}
bool SerialLink::setStopBitsType(int stopBits)
{
bool accepted = false;
if (stopBits != m_stopBits) {
m_stopBits = static_cast<QSerialPort::StopBits>(stopBits);
accepted = true;
if (m_port && !m_is_cdc)
accepted = m_port->setStopBits(static_cast<QSerialPort::StopBits>(stopBits));
emit updateLink(this);
}
return accepted;
}